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AMOR: Adaptive Character Control through Multi-Objective Reinforcement Learning

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arxiv 2505.23708 v1 pith:GNV6R5JU submitted 2025-05-29 cs.RO cs.GR

AMOR: Adaptive Character Control through Multi-Objective Reinforcement Learning

classification cs.RO cs.GR
keywords policyweightslearningmulti-objectivereinforcementcharactercontrolframework
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Reinforcement learning (RL) has significantly advanced the control of physics-based and robotic characters that track kinematic reference motion. However, methods typically rely on a weighted sum of conflicting reward functions, requiring extensive tuning to achieve a desired behavior. Due to the computational cost of RL, this iterative process is a tedious, time-intensive task. Furthermore, for robotics applications, the weights need to be chosen such that the policy performs well in the real world, despite inevitable sim-to-real gaps. To address these challenges, we propose a multi-objective reinforcement learning framework that trains a single policy conditioned on a set of weights, spanning the Pareto front of reward trade-offs. Within this framework, weights can be selected and tuned after training, significantly speeding up iteration time. We demonstrate how this improved workflow can be used to perform highly dynamic motions with a robot character. Moreover, we explore how weight-conditioned policies can be leveraged in hierarchical settings, using a high-level policy to dynamically select weights according to the current task. We show that the multi-objective policy encodes a diverse spectrum of behaviors, facilitating efficient adaptation to novel tasks.

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